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Electromagnetic Biology and Medicine Volume 25, 2006 - Issue 4
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Original

Some Problems in Modern Bioelectromagnetics

Mikhail Zhadin Institute of Cell Biophysics of RAS, Pushchino, Moscow Region, RussiaCorrespondence[email protected]
&
Livio Giuliani Institute for Prevention and Work Safety, ISPESL, Roma, Italy
Pages 227-243 | Published online: 07 Jul 2009

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Alexander Pazur. (2018) Calcium ion cyclotron resonance in dissipative water structures. Electromagnetic Biology and Medicine 37:2, pages 100-113.
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Livio Giuliani, Enrico D’Emilia, Antonella Lisi, Settimio Grimaldi, Larissa Brizhik & Emilio Del Giudice. (2015) Copper ion fluxes through the floating water bridge under strong electric potential. Electromagnetic Biology and Medicine 34:2, pages 167-169.
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Alberto Foletti, Settimio Grimaldi, Antonella Lisi, Mario Ledda & Abraham R. Liboff. (2013) Bioelectromagnetic medicine: The role of resonance signaling. Electromagnetic Biology and Medicine 32:4, pages 484-499.
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Antonella Lisi, Mario Ledda, Flavia de Carlo, Deleana Pozzi, Elisa Messina, Roberto Gaetani, Isotta Chimenti, Lucio Barile, Alessandro Giacomello, Enrico D'Emilia, Livio Giuliani, Alberto Foletti, Annamaria Patti, Antonella Vulcano & Settimio Grimaldi. (2008) Ion Cyclotron Resonance as a Tool in Regenerative Medicine. Electromagnetic Biology and Medicine 27:2, pages 127-133.
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Articles from other publishers (14)

Pierre Madl & Paolo Renati. (2023) Quantum Electrodynamics Coherence and Hormesis: Foundations of Quantum Biology. International Journal of Molecular Sciences 24:18, pages 14003.
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Aldo Liguori, Larissa Brizhik, Stefano Liguori, Laura Silli, Sergio Bangrazi, Filomena Petti, Medardo Pinti, Maria Ilaria Pistelli & Livio Giuliani. (2022) Effects of Ion Cyclotron Frequencies on Human Resistance and Reactance in 31 Healthy Subjects. Radiation 2:4, pages 357-375.
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A Widom, J Swain & V I Valenci. (2021) Extremely low frequency ion cyclotron resonances on the surface boundaries of coherent water domains. IOP Conference Series: Earth and Environmental Science 853:1, pages 012024.
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Janus A. J. Haagensen, Michael Bache, Livio Giuliani & Nikolaj S. Blom. (2021) Effects of Resonant Electromagnetic Fields on Biofilm Formation in Pseudomonas aeruginosa. Applied Sciences 11:16, pages 7760.
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Giovanni Di Bonaventura, Arianna Pompilio, Valentina Crocetta, Serena De Nicola, Filippo Barbaro, Livio Giuliani, Enrico D'Emilia, Ersilia Fiscarelli, Rosa Grazia Bellomo & Raoul Saggini. (2014) Exposure to extremely low-frequency magnetic field affects biofilm formation by cystic fibrosis pathogens. Future Microbiology 9:12, pages 1303-1317.
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M. N. Zhadin, B. V. Bakharev & N. V. Bobkova. (2014) Mechanism of action of combined extremely weak magnetic field on aqueous solution of amino acid. Biophysics 59:4, pages 677-679.
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Paolo Bellavite, Marta Marzotto, Debora Olioso, Elisabetta Moratti & Anita Conforti. (2014) High-dilution effects revisited. 1. Physicochemical aspects. Homeopathy 103:1, pages 4-21.
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Robert Davidson, Ann Lauritzen & Stephanie Seneff. (2013) Biological Water Dynamics and Entropy: A Biophysical Origin of Cancer and Other Diseases. Entropy 15:12, pages 3822-3876.
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Kh. P. Tiras, A. N. Skavulyak, K. B. Aslanidi & G. R. Ivanitsky. (2012) Why effects of the weak combined magnetic fields on biosystems are not always reproduced?. Doklady Biochemistry and Biophysics 443:1, pages 127-129.
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Michal Cifra, Jeremy Z. Fields & Ashkan Farhadi. (2011) Electromagnetic cellular interactions. Progress in Biophysics and Molecular Biology 105:3, pages 223-246.
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V. V. Novikov, V. O. Ponomarev, G. V. Novikov, V. V. Kuvichkin, E. V. Yablokova & E. E. Fesenko. (2010) Effects and molecular mechanisms of the biological action of weak and extremely weak magnetic fields. Biophysics 55:4, pages 565-572.
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M. Cifra, J. Pokorný, D. Havelka & O. Kučera. (2010) Electric field generated by axial longitudinal vibration modes of microtubule. Biosystems 100:2, pages 122-131.
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Livio Giuliani, Settimio Grimaldi, Antonella Lisi, Enrico D'Emilia, Natalia Bobkova & Mikhail Zhadin. (2008) Action of combined magnetic fields on aqueous solution of glutamic acid: the further development of investigations. BioMagnetic Research and Technology 6:1.
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Mikhail Zhadin, Frank Barnes & Livio Giuliani. (2007) Response to “a few remarks on ‘combined action of DC and AC magnetic fields on ion motion in macromolecules’” by Binhi. Bioelectromagnetics 28:5, pages 412-413.
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